Standards Addressed (include prioritization E, I or C)
Lesson Prioritization (E, I, C)
Timing Suggestion(s)
Investigation 54: Investigating Human Traits
Collect and present individual and group data about human traits.
Inquire about whether or not human traits are inherited from parents or acquired by other means.
7.1.10. A dominant trait will be expressed if the organism is heterozygous or homozygous for the trait. A recessive trait will only be expressed if the organism is homozygous for the trait. (E)
C
50 minutes
Investigation 55: Plants Have Genes Too!
Prepare seeds resulting from a genetic cross to germinate for a later activity.
Predict the outcome of the colors of the offspring seedlings.
7.1.9. Alternative versions of genes (different alleles) account for variations in inherited characteristics (i.e., flower color). Pairs of chromosomes that have the same allele present on both chromosomes are homozygous. Pairs of chromosomes with different alleles are heterozygous. (E) 7.1.10. A dominant trait will be expressed if the organism is heterozygous or homozygous for the trait. A recessive trait will only be expressed if the organism is homozygous for the trait. (E)
E
25 minutes
Investigation 56: Joe's Dilemma
Learn about a hereditary condition that may not show symptoms until later in life.
Evaluate benefits and trade-offs that accompany genetic testing
7.3.2. Knowledge gained from research in genetics is being applied to areas of human health. Geneticists and genetic counselors may use pedigrees and Punnett squares to help predict the possibility of genetic disorders in future generations. (E)
E
50 minutes
Investigation 57: Copycat
Distinguish sexual reproduction from asexual reproduction.
Reflect on advantages and disadvantages of each type of reproduction for the species.
7.1.1. Reproduction is a characteristic of all living systems and is essential to the continuation of every species. (E) 7.1.2. Some organisms reproduce asexually involving one parent. Asexual reproduction results in offspring that are genetically identical to the parent organism (clones). This process is advantageous in maintaining the genetic make-up of organisms that are successful in a specific environment. (E) 7.1.3. Some organisms reproduce sexually involving two parents. Sexual reproduction results in offspring that have greater genetic diversity than those resulting from asexual reproduction. One-half of the offspring’s genetic information comes from the “male” parent and one-half comes from the “female” parent. These genetic differences help to ensure the survival of offspring in varied environments. (E) 7.1.4. In sexual reproduction after the egg is fertilized, each of the new cells in the developing organism receives an exact copy of the genetic information contained in the nucleus of a fertilized egg. (E) 7.3.1. Selective breeding is used to cultivate plants and domesticated animals with desirable traits. (E)
E
100 minutes
Investigation 58: Creature Features
Explore the results of a single factor cross in genetics.
Collect data (imaginary) from this cross and hypothesize about why these results were obtained.
7.1.1. Reproduction is a characteristic of all living systems and is essential to the continuation of every species. (E) 7.1.3. Some organisms reproduce sexually involving two parents. Sexual reproduction results in offspring that have greater genetic diversity than those resulting from asexual reproduction. One-half of the offspring’s genetic information comes from the “male” parent and one-half comes from the “female” parent. These genetic differences help to ensure the survival of offspring in varied environments. (E) 7.1.9. Alternative versions of genes (different alleles) account for variations in inherited characteristics (i.e., flower color). Pairs of chromosomes that have the same allele present on both chromosomes are homozygous. Pairs of chromosomes with different alleles are heterozygous. (E) 7.1.10. A dominant trait will be expressed if the organism is heterozygous or homozygous for the trait. A recessive trait will only be expressed if the organism is homozygous for the trait. (E)
E
100 minutes
Investigation 59: Gene Combo
Use coin tossing as an illustration of the outcomes of crossing single gene traits.
7.1.1. Reproduction is a characteristic of all living systems and is essential to the continuation of every species. (E) 7.1.3. Some organisms reproduce sexually involving two parents. Sexual reproduction results in offspring that have greater genetic diversity than those resulting from asexual reproduction. One-half of the offspring’s genetic information comes from the “male” parent and one-half comes from the “female” parent. These genetic differences help to ensure the survival of offspring in varied environments. (E) 7.1.9. Alternative versions of genes (different alleles) account for variations in inherited characteristics (i.e., flower color). Pairs of chromosomes that have the same allele present on both chromosomes are homozygous. Pairs of chromosomes with different alleles are heterozygous. (E) 7.1.10. A dominant trait will be expressed if the organism is heterozygous or homozygous for the trait. A recessive trait will only be expressed if the organism is homozygous for the trait. (E) 7.1.11. Mendelian genetics can be used to predict genotypes and phenotypes of offspring resulting from sexual reproduction. (E) 1.2.1. Advances in technology can expand the body of scientific knowledge. Technological tools allow people to observe objects and phenomena that otherwise would not be possible. Technology enhances the quality, accuracy, speed and analysis of data gathered. (I)
E
50 minutes
Investigation 60: Mendel: First Geneticist
Relate the outcome of Nicotiana appearances to the work Gregor Mendel did with pea plants.
7.1.1. Reproduction is a characteristic of all living systems and is essential to the continuation of every species. (E) 7.1.9. Alternative versions of genes (different alleles) account for variations in inherited characteristics (i.e., flower color). Pairs of chromosomes that have the same allele present on both chromosomes are homozygous. Pairs of chromosomes with different alleles are heterozygous. (E) 7.1.10. A dominant trait will be expressed if the organism is heterozygous or homozygous for the trait. A recessive trait will only be expressed if the organism is homozygous for the trait. (E) 7.1.11. Mendelian genetics can be used to predict genotypes and phenotypes of offspring resulting from sexual reproduction. (E) 1.3.1. Over the course of human history, contributions to science have been made by different people from different cultures. Studying some of these contributions and how they came about provides insight into the expansion of scientific knowledge. (C)
E
50 minutes
Investigation 61: Gene Squares
Use Punnett Squares to predict the appearance of offspring and distribution of alleles in genetic crosses.
7.3.2. Knowledge gained from research in genetics is being applied to areas of human health. Geneticists and genetic counselors may use pedigrees and Punnett squares to help predict the possibility of genetic disorders in future generations. (E) 7.1.9. Alternative versions of genes (different alleles) account for variations in inherited characteristics (i.e., flower color). Pairs of chromosomes that have the same allele present on both chromosomes are homozygous. Pairs of chromosomes with different alleles are heterozygous. (E) 7.1.10. A dominant trait will be expressed if the organism is heterozygous or homozygous for the trait. A recessive trait will only be expressed if the organism is homozygous for the trait. (E) 7.1.11. Mendelian genetics can be used to predict genotypes and phenotypes of offspring resulting from sexual reproduction. (E)
E
100 minutes
Investigation 62: Analyzing Genetic Data
Analyze data from Nicotiana seedlings to confirm or refute the predictions made with Punnett Squares.
7.1.11. Mendelian genetics can be used to predict genotypes and phenotypes of offspring resulting from sexual reproduction. (E)1.1.2. Understand that: A valid investigation controls variables. Different experimental designs and strategies can be developed to answer the same question. Be able to: Design and conduct investigations with controlled variables to test hypotheses. (E) 1.2.1. Advances in technology can expand the body of scientific knowledge. Technological tools allow people to observe objects and phenomena that otherwise would not be possible. Technology enhances the quality, accuracy, speed and analysis of data gathered. (I)
I
30 minutes
Investigation 63: Show Me the Genes!
Identify chromosomes as the carrier of genes in the cell.
Trace chromosome number in cells during asexual reproduction, sexual reproduction, and fertilization.
Explain how half of a person's chromosomes came from each parent and relate chromosome inheritance to diversity during sexual reproduction.
Explain that the sex of a zygote is determined by the contribution of an X or Y chromosome from the sperm, and that eggs always contribute an X chromosome.
7.1.6. Chromosomes are found in the nucleus of the cell and contain genes that are made of DNA. Inherited traits of individuals are controlled by genes. (E) 7.1.7. Chromosomes can be arranged in pairs (one-half of each pair from each parent). These pairs are approximately the same size and shape, and have similar sequences of genes. Humans have 23 pairs (46) of chromosomes. Other organisms may have different numbers of chromosomes. (I) 7.1.8. In humans, gender is determined by a pair of sex chromosomes. Females possess two X chromosomes; males an X and a Y chromosome. The sex of an embryo is determined by the sex chromosome found in the sperm cell. (I)
E
100 minutes
Investigation 64: Nature and Nurture
Design an experiment to test the effect of light on the inherited green color of tobacco seedlings.
Explain how heredity and environment play roles in determining the traits of an organism.
7.1.2. Some organisms reproduce asexually involving one parent. Asexual reproduction results in offspring that are genetically identical to the parent organism (clones). This process is advantageous in maintaining the genetic make-up of organisms that are successful in a specific environment. (E) 7.3.1. Selective breeding is used to cultivate plants and domesticated animals with desirable traits. (E) 1.2.1. Advances in technology can expand the body of scientific knowledge. Technological tools allow people to observe objects and phenomena that otherwise would not be possible. Technology enhances the quality, accuracy, speed and analysis of data gathered. (I)
C
50 minutes
Investigation 65: Breeding Critters--More Traits
visualize how allelic distributions (genotypes) are expressed in organisms (phenotypes).
7.3.2. Knowledge gained from research in genetics is being applied to areas of human health. Geneticists and genetic counselors may use pedigrees and Punnett squares to help predict the possibility of genetic disorders in future generations. (E) 7.1.9. Alternative versions of genes (different alleles) account for variations in inherited characteristics (i.e., flower color). Pairs of chromosomes that have the same allele present on both chromosomes are homozygous. Pairs of chromosomes with different alleles are heterozygous. (E) 7.1.10. A dominant trait will be expressed if the organism is heterozygous or homozygous for the trait. A recessive trait will only be expressed if the organism is homozygous for the trait. (E) 7.1.11. Mendelian genetics can be used to predict genotypes and phenotypes of offspring resulting from sexual reproduction. (E)
I
50 minutes
Investigation 66: Patterns In Pedigrees
Use a pedigree to identify patterns of inheritance of genetic traits.
Use pedigrees to solve problems in human genetics and to make decisions about selective breeding.
7.3.2. Knowledge gained from research in genetics is being applied to areas of human health. Geneticists and genetic counselors may use pedigrees and Punnett squares to help predict the possibility of genetic disorders in future generations. (E) 7.1.9. Alternative versions of genes (different alleles) account for variations in inherited characteristics (i.e., flower color). Pairs of chromosomes that have the same allele present on both chromosomes are homozygous. Pairs of chromosomes with different alleles are heterozygous. (E) 7.1.10. A dominant trait will be expressed if the organism is heterozygous or homozygous for the trait. A recessive trait will only be expressed if the organism is homozygous for the trait. (E) 7.1.11. Mendelian genetics can be used to predict genotypes and phenotypes of offspring resulting from sexual reproduction. (E)
E
50 minutes
Investigation 67: What Would You Do?
Use a pedigree to make a decision about genetic conditions
Evaluate benefits and trade-offs that accompany genetic testing
7.3.2. Knowledge gained from research in genetics is being applied to areas of human health. Geneticists and genetic counselors may use pedigrees and Punnett squares to help predict the possibility of genetic disorders in future generations. (E) 7.1.9. Alternative versions of genes (different alleles) account for variations in inherited characteristics (i.e., flower color). Pairs of chromosomes that have the same allele present on both chromosomes are homozygous. Pairs of chromosomes with different alleles are heterozygous. (E) 7.1.10. A dominant trait will be expressed if the organism is heterozygous or homozygous for the trait. A recessive trait will only be expressed if the organism is homozygous for the trait. (E) 7.1.11. Mendelian genetics can be used to predict genotypes and phenotypes of offspring resulting from sexual reproduction. (E)
Inquire about whether or not human traits are inherited from parents or acquired by other means.
7.1.10. A dominant trait will be expressed if the organism is heterozygous or homozygous for the trait. A recessive trait will only be expressed if the organism is homozygous for the trait. (E)
Predict the outcome of the colors of the offspring seedlings.
7.1.9. Alternative versions of genes (different alleles) account for variations in inherited characteristics (i.e., flower color). Pairs of chromosomes that have the same allele present on both chromosomes are homozygous. Pairs of chromosomes with different alleles are heterozygous. (E)
7.1.10. A dominant trait will be expressed if the organism is heterozygous or homozygous for the trait. A recessive trait will only be expressed if the organism is homozygous for the trait. (E)
Evaluate benefits and trade-offs that accompany genetic testing
7.3.2. Knowledge gained from research in genetics is being applied to areas of human health. Geneticists and genetic counselors may use pedigrees and Punnett squares to help predict the possibility of genetic disorders in future generations. (E)
Reflect on advantages and disadvantages of each type of reproduction for the species.
7.1.2. Some organisms reproduce asexually involving one parent. Asexual reproduction results in offspring that are genetically identical to the parent organism (clones). This process is advantageous in maintaining the genetic make-up of organisms that are successful in a specific environment. (E)
7.1.3. Some organisms reproduce sexually involving two parents. Sexual reproduction results in offspring that have greater genetic diversity than those resulting from asexual reproduction. One-half of the offspring’s genetic information comes from the “male” parent and one-half comes from the “female” parent. These genetic differences help to ensure the survival of offspring in varied environments. (E)
7.1.4. In sexual reproduction after the egg is fertilized, each of the new cells in the developing organism receives an exact copy of the genetic information contained in the nucleus of a fertilized egg. (E)
7.3.1. Selective breeding is used to cultivate plants and domesticated animals with desirable traits. (E)
Collect data (imaginary) from this cross and hypothesize about why these results were obtained.
7.1.3. Some organisms reproduce sexually involving two parents. Sexual reproduction results in offspring that have greater genetic diversity than those resulting from asexual reproduction. One-half of the offspring’s genetic information comes from the “male” parent and one-half comes from the “female” parent. These genetic differences help to ensure the survival of offspring in varied environments. (E)
7.1.9. Alternative versions of genes (different alleles) account for variations in inherited characteristics (i.e., flower color). Pairs of chromosomes that have the same allele present on both chromosomes are homozygous. Pairs of chromosomes with different alleles are heterozygous. (E)
7.1.10. A dominant trait will be expressed if the organism is heterozygous or homozygous for the trait. A recessive trait will only be expressed if the organism is homozygous for the trait. (E)
7.1.3. Some organisms reproduce sexually involving two parents. Sexual reproduction results in offspring that have greater genetic diversity than those resulting from asexual reproduction. One-half of the offspring’s genetic information comes from the “male” parent and one-half comes from the “female” parent. These genetic differences help to ensure the survival of offspring in varied environments. (E)
7.1.9. Alternative versions of genes (different alleles) account for variations in inherited characteristics (i.e., flower color). Pairs of chromosomes that have the same allele present on both chromosomes are homozygous. Pairs of chromosomes with different alleles are heterozygous. (E)
7.1.10. A dominant trait will be expressed if the organism is heterozygous or homozygous for the trait. A recessive trait will only be expressed if the organism is homozygous for the trait. (E)
7.1.11. Mendelian genetics can be used to predict genotypes and phenotypes of offspring resulting from sexual reproduction. (E)
1.2.1. Advances in technology can expand the body of scientific knowledge. Technological tools allow people to observe objects and phenomena that otherwise would not be possible. Technology enhances the quality, accuracy, speed and analysis of data gathered. (I)
7.1.9. Alternative versions of genes (different alleles) account for variations in inherited characteristics (i.e., flower color). Pairs of chromosomes that have the same allele present on both chromosomes are homozygous. Pairs of chromosomes with different alleles are heterozygous. (E)
7.1.10. A dominant trait will be expressed if the organism is heterozygous or homozygous for the trait. A recessive trait will only be expressed if the organism is homozygous for the trait. (E)
7.1.11. Mendelian genetics can be used to predict genotypes and phenotypes of offspring resulting from sexual reproduction. (E)
1.3.1. Over the course of human history, contributions to science have been made by different people from different cultures. Studying some of these contributions and how they came about provides insight into the expansion of scientific knowledge. (C)
7.1.9. Alternative versions of genes (different alleles) account for variations in inherited characteristics (i.e., flower color). Pairs of chromosomes that have the same allele present on both chromosomes are homozygous. Pairs of chromosomes with different alleles are heterozygous. (E)
7.1.10. A dominant trait will be expressed if the organism is heterozygous or homozygous for the trait. A recessive trait will only be expressed if the organism is homozygous for the trait. (E)
7.1.11. Mendelian genetics can be used to predict genotypes and phenotypes of offspring resulting from sexual reproduction. (E)
Be able to: Design and conduct investigations with controlled variables to test hypotheses. (E)
1.2.1. Advances in technology can expand the body of scientific knowledge. Technological tools allow people to observe objects and phenomena that otherwise would not be possible. Technology enhances the quality, accuracy, speed and analysis of data gathered. (I)
Trace chromosome number in cells during asexual reproduction, sexual reproduction, and fertilization.
Explain how half of a person's chromosomes came from each parent and relate chromosome inheritance to diversity during sexual reproduction.
Explain that the sex of a zygote is determined by the contribution of an X or Y chromosome from the sperm, and that eggs always contribute an X chromosome.
7.1.7. Chromosomes can be arranged in pairs (one-half of each pair from each parent). These pairs are approximately the same size and shape, and have similar sequences of genes. Humans have 23 pairs (46) of chromosomes. Other organisms may have different numbers of chromosomes. (I)
7.1.8. In humans, gender is determined by a pair of sex chromosomes. Females possess two X chromosomes; males an X and a Y chromosome. The sex of an embryo is determined by the sex chromosome found in the sperm cell. (I)
Explain how heredity and environment play roles in determining the traits of an organism.
7.3.1. Selective breeding is used to cultivate plants and domesticated animals with desirable traits. (E)
1.2.1. Advances in technology can expand the body of scientific knowledge. Technological tools allow people to observe objects and phenomena that otherwise would not be possible. Technology enhances the quality, accuracy, speed and analysis of data gathered. (I)
7.1.9. Alternative versions of genes (different alleles) account for variations in inherited characteristics (i.e., flower color). Pairs of chromosomes that have the same allele present on both chromosomes are homozygous. Pairs of chromosomes with different alleles are heterozygous. (E)
7.1.10. A dominant trait will be expressed if the organism is heterozygous or homozygous for the trait. A recessive trait will only be expressed if the organism is homozygous for the trait. (E)
7.1.11. Mendelian genetics can be used to predict genotypes and phenotypes of offspring resulting from sexual reproduction. (E)
Use pedigrees to solve problems in human genetics and to make decisions about selective breeding.
7.1.9. Alternative versions of genes (different alleles) account for variations in inherited characteristics (i.e., flower color). Pairs of chromosomes that have the same allele present on both chromosomes are homozygous. Pairs of chromosomes with different alleles are heterozygous. (E)
7.1.10. A dominant trait will be expressed if the organism is heterozygous or homozygous for the trait. A recessive trait will only be expressed if the organism is homozygous for the trait. (E)
7.1.11. Mendelian genetics can be used to predict genotypes and phenotypes of offspring resulting from sexual reproduction. (E)
Evaluate benefits and trade-offs that accompany genetic testing
7.1.9. Alternative versions of genes (different alleles) account for variations in inherited characteristics (i.e., flower color). Pairs of chromosomes that have the same allele present on both chromosomes are homozygous. Pairs of chromosomes with different alleles are heterozygous. (E)
7.1.10. A dominant trait will be expressed if the organism is heterozygous or homozygous for the trait. A recessive trait will only be expressed if the organism is homozygous for the trait. (E)
7.1.11. Mendelian genetics can be used to predict genotypes and phenotypes of offspring resulting from sexual reproduction. (E)
Searching for the lost Children